LAMPIRAN

Lampiran 1. Surat Keterangan Hasil Determinasi Tanaman Binahong

(Anredera cordifolia (Ten.) Steenis)

Lampiran 1. Lanjutan…

Lampiran 1. Lanjutan…

Lampiran 2. Uji regresi linier sifat fisik salep ekstrak etanol daun binahong

basis kombinasi vaselin album-cera alba

1. pH

Vaselin album-Cera alba 80%:20%, 90%:10% dan 100%

Model Summaryb

Model R R Square Adjusted R

Square

Std. Error of the

Estimate

1 ,310a ,096 -,033 ,04734

a. Predictors: (Constant), formula

b. Dependent Variable: pH

ANOVAa

Model Sum of Squares Df Mean Square F Sig.

1

Regression ,002 1 ,002 ,744 ,417b

Residual ,016 7 ,002

Total ,017 8

a. Dependent Variable: pH

b. Predictors: (Constant), formula

Coefficientsa

Model Unstandardized Coefficients Standardized

Coefficients

T Sig.

B Std. Error Beta

1 (Constant) 5,449 ,042 130,507 ,000

Formula ,017 ,019 ,310 ,862 ,417

a. Dependent Variable: pH

2. Viskositas

Vaselin album-Cera alba 80%:20%, 90%:10% dan 100%

Model Summaryb

Model R R Square Adjusted R

Square

Std. Error of the

Estimate

1 ,958a ,917 ,905 8,357

a. Predictors: (Constant), formula

b. Dependent Variable: viskositas

Lampiran 2. Lanjutan…

Model Summaryb

Model R R Square Adjusted R

Square

Std. Error of the

Estimate

1 ,958a ,917 ,905 8,357

a. Predictors: (Constant), formula

b. Dependent Variable: viskositas

Coefficientsa

Model Unstandardized Coefficients Standardized

Coefficients

T Sig.

B Std. Error Beta

1 (Constant) 161,111 7,370

21,860 ,000

formula -30,000 3,412 -,958 -8,793 ,000

a. Dependent Variable: viskositas

3. Daya sebar

Vaselin album-Cera alba 80%:20%, 90%:10% dan 100%

Model Summaryb

Model R R Square Adjusted R

Square

Std. Error of the

Estimate

1 ,973a ,947 ,940 ,57821

a. Predictors: (Constant), formula

b. Dependent Variable: dayasebar

ANOVAa

Model Sum of Squares Df Mean Square F Sig.

1

Regression 42,135 1 42,135 126,029 ,000b

Residual 2,340 7 ,334

Total 44,475 8

a. Dependent Variable: dayasebar

b. Predictors: (Constant), formula

Lampiran 2. Lanjutan…

Coefficientsa

Model Unstandardized Coefficients Standardized

Coefficients

T Sig.

B Std. Error Beta

1 (Constant) 7,279 ,510

14,274 ,000

formula 2,650 ,236 ,973 11,226 ,000

a. Dependent Variable: dayasebar

4. Daya lekat

Vaselin album-Cera alba 80%:20%, 90%:10% dan 100%

Model Summaryb

Model R R Square Adjusted R

Square

Std. Error of the

Estimate

1 ,979a ,958 ,952 ,08357

a. Predictors: (Constant), formula

b. Dependent Variable: dayaLekat

ANOVAa

Model Sum of Squares Df Mean Square F Sig.

1

Regression 1,127 1 1,127 161,318 ,000b

Residual ,049 7 ,007

Total 1,176 8

a. Dependent Variable: dayaLekat

b. Predictors: (Constant), formula

Coefficientsa

Model Unstandardized Coefficients Standardized

Coefficients

T Sig.

B Std. Error Beta

1 (Constant) 2,489 ,074

33,769 ,000

Formula -,433 ,034 -,979 -12,701 ,000

a. Dependent Variable: dayaLekat

Lampiran 3. Uji stabilitas fisik salep ekstrak etanol daun binahong basis

kombinasi vaselin album-cera alba

A. Formula 1

1. pH

Tests of Normality

Siklus Kolmogorov-Smirnov

a Shapiro-Wilk

Statistic df Sig. Statistic df Sig.

Ph

siklus 0 ,227 3 . ,983 3 ,747

siklus 1 ,196 3 . ,996 3 ,878

siklus 2 ,175 3 . 1,000 3 1,000

siklus 3 ,301 3 . ,912 3 ,424

siklus 4 ,227 3 . ,983 3 ,747

siklus 5 ,301 3 . ,912 3 ,424

siklus 6 ,232 3 . ,980 3 ,726

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

pH

Levene Statistic df1 df2 Sig.

,382 6 14 ,878

ANOVA

Ph

Sum of Squares Df Mean Square F Sig.

Between Groups ,029 6 ,005 1,136 ,392

Within Groups ,060 14 ,004

Total ,090 20

Lampiran 3. Lanjutan…

2. Viskositas

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic Df Sig. Statistic Df Sig.

viskositasF1

siklus 0 ,175 3 . 1,000 3 1,000

siklus 1 ,292 3 . ,923 3 ,463

siklus 2 ,175 3 . 1,000 3 1,000

siklus 3 ,175 3 . 1,000 3 1,000

siklus 4 ,175 3 . 1,000 3 1,000

siklus 5 ,253 3 . ,964 3 ,637

siklus 6 ,292 3 . ,923 3 ,463

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

viskositasF1

Levene Statistic df1 df2 Sig.

1,165 6 14 ,378

ANOVA

viskositasF1

Sum of Squares Df Mean Square F Sig.

Between Groups 3457,143 6 576,190 2,689 ,060

Within Groups 3000,000 14 214,286

Total 6457,143 20

Lampiran 3. Lanjutan…

3. Daya sebar

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic Df Sig. Statistic df Sig.

dayasebarF1

siklus 0 ,283 3 . ,934 3 ,505

siklus 1 ,304 3 . ,908 3 ,412

siklus 2 ,330 3 . ,866 3 ,284

siklus 3 ,347 3 . ,835 3 ,202

siklus 4 ,233 3 . ,979 3 ,722

siklus 5 ,374 3 . ,776 3 ,058

siklus 6 ,182 3 . ,999 3 ,937

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

dayasebarF1

Levene Statistic df1 df2 Sig.

,790 6 14 ,592

ANOVA

dayasebarF1

Sum of Squares Df Mean Square F Sig.

Between Groups 1,728 6 ,288 2,995 ,043

Within Groups 1,346 14 ,096

Total 3,073 20

Lampiran 3. Lanjutan…

Multiple Comparisons

4Dependent Variable: dayasebarF1

LSD

(I) siklus (J) siklus Mean

Difference (I-J)

Std. Error Sig. 95% Confidence Interval

Lower Bound Upper Bound

siklus 0

siklus 1 ,22333 ,25315 ,393 -,3196 ,7663

siklus 2 ,27000 ,25315 ,304 -,2729 ,8129

siklus 3 ,51667 ,25315 ,061 -,0263 1,0596

siklus 4 ,77333* ,25315 ,009 ,2304 1,3163

siklus 5 ,59667* ,25315 ,034 ,0537 1,1396

siklus 6 ,85000* ,25315 ,005 ,3071 1,3929

*. The mean difference is significant at the 0.05 level.

4. Daya lekat

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic Df Sig. Statistic Df Sig.

dayaLekatF1

siklus 0 ,385 3 . ,750 3 ,000

siklus 1 ,175 3 . 1,000 3 1,000

siklus 2 ,175 3 . 1,000 3 1,000

siklus 3 ,385 3 . ,750 3 ,000

siklus 4 ,175 3 . 1,000 3 1,000

siklus 5 ,253 3 . ,964 3 ,637

siklus 6 ,175 3 . 1,000 3 1,000

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

dayaLekatF1

Levene Statistic df1 df2 Sig.

,549 6 14 ,763

Lampiran 3. Lanjutan…

Test Statistics a,b

dayaLekatF1

Chi-Square 7,227

Df 6

Asymp. Sig. ,300

a. Kruskal Wallis Test

b. Grouping Variable: siklus

B. Formula 2

1. pH

Tests of Normality

Siklus Kolmogorov-Smirnov

a Shapiro-Wilk

Statistic df Sig. Statistic df Sig.

pHF2

siklus 0 ,232 3 . ,980 3 ,726

siklus 1 ,227 3 . ,983 3 ,747

siklus 2 ,269 3 . ,949 3 ,567

siklus 3 ,276 3 . ,942 3 ,537

siklus 4 ,301 3 . ,912 3 ,424

siklus 5 ,208 3 . ,992 3 ,826

siklus 6 ,219 3 . ,987 3 ,780

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

pHF2

Levene Statistic df1 df2 Sig.

1,077 6 14 ,421

Lampiran 3. Lanjutan…

ANOVA

pHF2

Sum of Squares df Mean Square F Sig.

Between Groups ,023 6 ,004 1,129 ,395

Within Groups ,048 14 ,003

Total ,072 20

2. Viskositas

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic Df Sig. Statistic Df Sig.

viskositasF2

siklus 0 ,385 3 . ,750 3 ,000

siklus 1 ,175 3 . 1,000 3 1,000

siklus 2 ,175 3 . 1,000 3 1,000

siklus 3 ,175 3 . 1,000 3 1,000

siklus 4 ,175 3 . 1,000 3 1,000

siklus 5 ,253 3 . ,964 3 ,637

siklus 6 ,385 3 . ,750 3 ,000

a. Lilliefors Significance Correction

Test Statisticsa,b

viskositasF2

Chi-Square 8,383

Df 6

Asymp. Sig. ,211

a. Kruskal Wallis Test

b. Grouping Variable: siklus

Test of Homogeneity of Variances

viskositasF2

Levene Statistic df1 df2 Sig.

,469 6 14 ,820

Lampiran 3. Lanjutan…

3. Daya sebar

Tests of Normality

Siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic df Sig. Statistic df Sig.

dayasebarF2

siklus 0 ,267 3 . ,951 3 ,576

siklus 1 ,233 3 . ,979 3 ,722

siklus 2 ,283 3 . ,934 3 ,505

siklus 3 ,184 3 . ,999 3 ,930

siklus 4 ,311 3 . ,898 3 ,378

siklus 5 ,276 3 . ,942 3 ,534

siklus 6 ,264 3 . ,955 3 ,590

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

dayasebarF2

Levene Statistic df1 df2 Sig.

1,815 6 14 ,168

ANOVA

dayasebarF2

Sum of Squares df Mean Square F Sig.

Between Groups 20,950 6 3,492 4,195 ,013

Within Groups 11,652 14 ,832

Total 32,601 20

Lampiran 3. Lanjutan…

Multiple Comparisons

Dependent Variable: dayasebarF2

LSD

(I) siklus (J) siklus Mean

Difference (I-J)

Std. Error Sig. 95% Confidence Interval

Lower Bound Upper Bound

siklus 0

siklus 1 1,02667 ,60796 ,113 -,2773 2,3306

siklus 2 1,29333 ,60796 ,052 -,0106 2,5973

siklus 3 1,28000 ,60796 ,054 -,0239 2,5839

siklus 4 2,80333* ,60796 ,000 1,4994 4,1073

siklus 5 2,90000* ,60796 ,000 1,5961 4,2039

siklus 6 2,66000* ,60796 ,001 1,3561 3,9639

*. The mean difference is significant at the 0.05 level.

4. Daya lekat

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic Df Sig. Statistic Df Sig.

dayaLekatF2

siklus 0 ,175 3 . 1,000 3 1,000

siklus 1 ,175 3 . 1,000 3 1,000

siklus 2 ,175 3 . 1,000 3 1,000

siklus 3 ,253 3 . ,964 3 ,637

siklus 4 ,175 3 . 1,000 3 1,000

siklus 5 ,175 3 . 1,000 3 1,000

siklus 6 ,175 3 . 1,000 3 1,000

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

dayaLekatF2

Levene Statistic df1 df2 Sig.

,239 6 14 ,956

Lampiran 3. Lanjutan…

ANOVA

dayaLekatF2

Sum of Squares Df Mean Square F Sig.

Between Groups ,031 6 ,005 ,440 ,840

Within Groups ,167 14 ,012

Total ,198 20

C. Formulasi 3

1. pH

Tests of Normality

Siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic df Sig. Statistic df Sig.

pHF3

siklus 0 ,232 3 . ,980 3 ,726

siklus 1 ,301 3 . ,912 3 ,424

siklus 2 ,175 3 . 1,000 3 1,000

siklus 3 ,219 3 . ,987 3 ,780

siklus 4 ,321 3 . ,881 3 ,328

siklus 5 ,219 3 . ,987 3 ,780

siklus 6 ,201 3 . ,994 3 ,856

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

pHF3

Levene Statistic df1 df2 Sig.

1,577 6 14 ,226

ANOVA

pHF3

Sum of Squares df Mean Square F Sig.

Between Groups ,029 6 ,005 1,262 ,335

Within Groups ,054 14 ,004

Total ,082 20

Lampiran 3. Lanjutan…

2. Viskositas

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic df Sig. Statistic Df Sig.

viskositasF3

siklus 0 ,175 3 . 1,000 3 1,000

siklus 1 ,253 3 . ,964 3 ,637

siklus 2 ,253 3 . ,964 3 ,637

siklus 3 ,175 3 . 1,000 3 1,000

siklus 4 ,253 3 . ,964 3 ,637

siklus 5 ,175 3 . 1,000 3 1,000

siklus 6 ,253 3 . ,964 3 ,637

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

viskositasF3

Levene Statistic df1 df2 Sig.

,340 6 14 ,904

ANOVA

viskositasF3

Sum of Squares df Mean Square F Sig.

Between Groups 714,286 6 119,048 ,543 ,767

Within Groups 3066,667 14 219,048

Total 3780,952 20

Lampiran 3. Lanjutan…

3. Daya sebar

Tests of Normality

siklus Kolmogorov-Smirnova Shapiro-Wilk

Statistic Df Sig. Statistic df Sig.

dayasebarF3

siklus 0 ,379 3 . ,765 3 ,033

siklus 1 ,323 3 . ,879 3 ,322

siklus 2 ,329 3 . ,868 3 ,289

siklus 3 ,275 3 . ,943 3 ,541

siklus 4 ,203 3 . ,994 3 ,847

siklus 5 ,338 3 . ,853 3 ,249

siklus 6 ,276 3 . ,942 3 ,537

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

dayasebarF3

Levene Statistic df1 df2 Sig.

1,733 6 14 ,186

Test Statisticsa,b

dayasebarF3

Chi-Square 6,324

Df 6

Asymp. Sig. ,388

a. Kruskal Wallis Test

b. Grouping Variable: siklus

Lampiran 3. Lanjutan…

4. Uji daya lekat

Tests of Normality

Siklus Kolmogorov-Smirnov

a Shapiro-Wilk

Statistic Df Sig. Statistic df Sig.

dayaLekat

F3

siklus 0 ,175 3 . 1,000 3 1,000

siklus 1 ,175 3 . 1,000 3 1,000

siklus 2 ,253 3 . ,964 3 ,637

siklus 3 ,175 3 . 1,000 3 1,000

siklus 4 ,253 3 . ,964 3 ,637

siklus 5 ,175 3 . 1,000 3 1,000

siklus 6 ,253 3 . ,964 3 ,637

a. Lilliefors Significance Correction

Test of Homogeneity of Variances

dayaLekatF3

Levene Statistic df1 df2 Sig.

,427 6 14 ,849

ANOVA

dayaLekatF3

Sum of Squares Df Mean Square F Sig.

Between Groups ,098 6 ,016 1,040 ,441

Within Groups ,220 14 ,016

Total ,318 20

Lampiran 4. Hasil uji stabilitas salep ekstrak etanol daun binahong basis

kombinasi vaselin album selama 6 siklus

F1 Vaselin album-cera alba 80%:20%

Siklus

Pengujian

Organoleptik

Homogenitas

pH Viskosit

as (dPa-s)

Daya Sebar

Daya Lekat (cm2)

Warna Bentuk Bau

0 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,46 130 9,63 4,83

1 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,53 157 8,86 4,80

2 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,45 130 9,03 4,90

3 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,47 120 8,78 4,73

4 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,46 140 9,11 4,90

5 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,55 137 9,41 4,73

6 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,49 157 9,36 4,80

Lampiran 4. Lanjutan…

FII Vaselin album-cera alba 90%:10%

Siklus

Pengujian

Organoleptik

Homogenitas

pH

Viskositas

(dPa-s)

Daya Seba

r

Daya Lekat (cm2)

Warna

Bentuk

Bau

0 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,49 103 13,17 4,30

1 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,46 120 11,33 4,30

2 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,54 110 11,80 4,40

3 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,56 110 10,36 4,36

4 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,55 110 10,27 4,30

5 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,54 113 12,14 4,30

6 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,52 93 10,51 4,30

Lampiran 4. Lanjutan…

F3. Vaselin album -cera alba 100%:0%

Siklus

Pengujian

Organoleptik Homogenitas

pH

Viskositas (dPa-s)

Daya Sebar

Daya Lekat (cm2)

Warna

Bentuk

Bau

0 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,49 70 14,93 4,00

1 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,47 83 15,09 3,90

2 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,45 83 14,99 3,96

3 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,52 80 15,76 3,90

4 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,57 83 15,59 3,96

5 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,52 70 14,86 3,80

6 Hijau Kecoklatan

Semi Padat

Khas Daun

Homogen 5,52 83 15,55 3,83

Lampiran 5. Gambar Uji Sifat Fisik Salep

Lampiran 6. Gambar Hasil Uji Stabilitas Fisik Salep

Lampiran 7. Surat Keterangan Laboratorium Bagian Farmasetika

Lampiran 8. Surat Keterangan Laboratorium Bagian Farmasetika